|Publication number||US7343301 B1|
|Application number||US 10/231,180|
|Publication date||Mar 11, 2008|
|Filing date||Aug 30, 2002|
|Priority date||Aug 30, 2002|
|Publication number||10231180, 231180, US 7343301 B1, US 7343301B1, US-B1-7343301, US7343301 B1, US7343301B1|
|Inventors||Mike Nash, Dave North, Sean Gates|
|Original Assignee||Signiant, Inc.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (35), Non-Patent Citations (2), Referenced by (10), Classifications (6), Legal Events (5)|
|External Links: USPTO, USPTO Assignment, Espacenet|
The invention relates to a method and apparatus for sending notifications to designated individuals regarding the status of a data transfer process, where the notification messages are sent as part of a system for controlling the distribution of data over a computer network using a centralized manager that controls a plurality of agents where agents are communicating peers and the central manager controls the distribution of data between them using data distribution rules stored in a central data distribution rules database.
For years, a company's success depended on its ability to receive, manufacture, and ship physical goods. However, as the industrial economy gave way to the information economy, the game changed. Over the past several decades, the use of electronic communications by individuals and companies has exploded. There is a great need for companies to share electronic information, within a company, between companies and with the public. Furthermore, product ordering, and even delivery for digital products, is now regularly performed electronically. However, the increase in electronic communications and commerce has also created numerous problems of reliability, security, and coordination. These problems are not adequately address by existing mechanisms for transferring electronic information.
In the 21st century, business success no longer hinges on the movement of physical goods, but on the exchange of data: a company's ability to produce, add value to, and derive value from data is crucial to its success. Regardless of whether data is satellite imagery, software source, seismic exploration results, reinsurance documentation or any other form of electronic information, data is critical to modern businesses. Furthermore, enterprises need to collaborate with suppliers, partners and customers, while doing so with fewer fixed costs and less capital. To be successful, enterprises must efficiently move data without stumbling on system, geographic or corporate boundaries. The expansion of information transfers and cost reduction pressures have impeded the ability of companies to properly handle electronic information.
Often the process of exchanging data relies on homegrown tools for information transfer. Many companies expend substantial effort scripting data transfers that use the File Transfer Protocol (FTP), rather than applying resources to revenue generating activities. Automating just one simple process can take many person-months of effort.
Many organizations attempt to secure electronic transfer over public Internet Protocol-based networks using Virtual Private Networks (VPNs). However, VPNs offer nothing in terms of process automation and application integration and require compatible VPN implementations at either end of the connection. It is unrealistic to expect all suppliers, vendors, customers, trading partners, or collaborators to implement company specific VPNs in order to communicate.
Extensive mergers and acquisitions have also changed the state of today's enterprise and the need for information sharing. This trend is prevalent in the high-tech sector, where established players are acquiring or merging with smaller companies in niche markets. This growth increases the necessity to have a reliable means of sharing data between two companies that need to operate as one. Companies are often relying on physical media and homegrown systems to transfer business critical data from one work site to another. With a merger or acquisition, companies are faced with the troubling task of needing to distribute physical media to more people or linking new users who are operating on disparate systems into their homegrown data transfer solution.
As the challenge of transferring data with their customers, partners and suppliers swells for organizations, there is a growing need for different solutions for different “classes” of business data. Much like the postal service deals with letters and packages of varying shapes and sizes, so does data transfer. For example, data that must be distributed to many people around the world is best delivered using a browser-based Internet download solution. On the other hand, critical corporate data that requires process automation and high levels of security is best distributed using an automated data distribution model.
Existing systems and processes for communicating or transferring electronic data have great deficiencies in meeting many needs of today's businesses. In particular, existing solutions lack the ability to address automated, event-driven, system-to-system data distribution requirements. They also lack the ability to provide proper security with ease of use and wide distribution. Furthermore, they are not easily scalable or interoperable. Therefore, a need exists for a system that automates secure system-to-system data distribution amongst a large number of sources and targets over any network.
The deficiencies of the prior art are substantially overcome by the system of the present invention which includes a system having at least two computers or other terminal devices between which data is transferable, a central manager, a set of data distribution rules and distribution agents associated with each of the computers or terminal devices. The data distribution rules are stored in the central manager and include information necessary for the proper transfer of data from one location to at least one second location. For example, the data distribution rules may include file source and destination information, file formatting information, tasks to be executed before or after transfers, dependencies between transfers, firewall traversal information, and encryption information. The distribution rules are communicated to the distribution agents which process the rules to carry out the data transfer. Distribution agents may operate independently or in combination. As an alternative to including all of the transfer information in the distribution rule, appropriate information may be included in a distribution agent. The distribution agents are responsive to receipt of specific information to perform their individually designated process. Therefore, upon receipt of a distribution rule from the central manager, either through a direct connection or a connection through another distribution agent, a distribution agent can respond by retrieving the desired file or files, properly formatting them, transferring the files to the designated recipient and performing other functions including local command execution. Upon receipt of instructions and data, another distribution agent appropriately receives the data, including any necessary decryption, stores the data file according to its defined rules, and performs other functions including local command execution. The central manager can also coordinate multiple data transfers, remote command executions, and manage dependencies between them including serial and conditional execution. Two-way communication links between the central manager and one of the distribution agents or between distribution agents preferably are maintained during a transfer process. These communication links may be through one or more local area networks, wide area networks, proprietary networks, global networks or other networks, including wired, wireless or a combination of wired and wireless networks.
According to another aspect of the invention, the distribution rules include a notification process. The notification process identifies information to be sent by the distribution agents upon completion or failure of any part of a data transfer process. According to an aspect of the invention, the completion or termination of each step performed by a distribution agent is communicated through the open communication line to the central manager. The central manager maintains at least one log of the communicated completion and termination information. Upon completion or termination of all of the parts of the data transfer process defined by a distribution rule, notification is performed, also as defined by the distribution rule. The notification rule can include the person or persons to notify and the information to include in the notification. According to an aspect of the present invention, the notification may provide different notifications for completions of the data transfer process than for failure of the data transfer process. According to an aspect of the invention, two logs are used, one for completed items and one for failed or terminated items. Only one of the logs is provided in the notification process depending upon the success or failure of the data transfer.
According to another aspect of the inventions, agents communicate real-time status information to the manager through the manager-agent control protocol. The notification apparatus inserts encoded notification messages into the control protocol stream and processes the encoded notification messages in the control protocol at the manager for delivery to external recipient in the indicated form. Notification logic is coded into the data distribution rules as part of custom data distribution logic extensions that execute at various call-out points in the data distribution process.
The present invention provides a distributed system for efficient and adaptable data transfer and control.
As illustrated in
Operation of the data transfer system 1 will now be described. Based upon a set timing, upon the occurrence of a specified condition or at other times, the central management computer 10 establishes a communication link 11 to one of the computers 21 in the data transfer system 1. The timing can be based on various given factors. Generally, the timing of data transfers are based either on a schedule or upon occurrence of an event. Schedules are used for transfers to occur at specified times. Schedules may be set to accommodate other uses of resources, such as making data transfers outside of regular working hours. Events can also be used to trigger a transfer which is dependent upon the event, but not on a particular timetable. Alternatively, the timing can be based upon a specified event. For example, a request for a transfer can be sent to the central management computer. Upon receipt of a request, an appropriate communications link can be created by the central manager to provide the transfer.
Once a communication link 11 is established, a distribution rule is transferred from the central manager to the connected computer 21. A distribution rule includes a set of steps for execution by the agent 21 a on the connected computer 21 necessary to complete the desired data transfer. Such steps may include retrieval of the specified data from a source connected to the computer 21, encryption of the data, formatting of the data, conversion of the data to a different format, firewall traversal processes, or any other process necessary to properly transfer data. Additionally, the distribution rule may include steps to be performed upon reception of the data, such as decryption, change in formatting, and storage of the data at the recipient computer. The distribution rule may also reference scripts to be performed before, after or during execution of steps in the data transfer. Thus, for example, information from a database can be extracted prior to a transfer.
Upon receipt of the distribution rule, the agent 21 a performs the steps in the rule. In order to transfer data, a communication link 61 is opened between the source computer 21 and a recipient computer 22. The exact nature of the communication link 61 depends upon the specific types and operations of the source computer 21 and the recipient computer 22. The nature of the communication link 61 and the process for establishing it may be included in the distribution rule. Alternatively, these processes may be implemented by the agents 21 a, 22 a on each of the computers. Once a communication link 61 is established, the agent 21 a performs the steps identified by the distribution rule to transfer the data.
As illustrated in
The above examples illustrate the central management computer 10 establishing a communications link with source computers 21, 24 for moving data from the source computer 21, 24 to recipient computers 22, 31. However, nothing in the present invention limits operation to a “push” transfer. As illustrated in
Finally, the data transfer system 1 includes a management interface 5 connected to the central management computer 10 for establishing the distribution rules and installing the agents. The management interface 5 includes appropriate authentication procedures, such as user identification and passwords to prevent unauthorized changes to the central management computer 10. An appropriate user interface is implemented on the management interface 5 in order to develop and install distribution rules. The management interface 5 is also used to set or modify the schedules for execution of distribution rules. Furthermore, the management interface 5 does not have to be a single purpose unit. Rather, it may be any computer which can connect to the central management computer 10. The authorization process may also limit a specific user to creation or modification of only some distribution rules. In this manner, different entities may modify rules applicable to those entities. The distribution agents on each of the computers may also be installed by the central management computer 10 through use of the management interface 5. Various authorization and security procedures can be used to control the installation or modification of distribution agents.
Since the data transfer process is defined by distribution rules, the data transfer system 1 of the present invention can easily accommodate different data transfer types to meet virtually any need.
According to an embodiment of the present invention, the communication link 205 between the central management computer 10 and the primary computer 210 operates according to a control protocol. Messages are passed over the communication link 205 as part of the control protocol. The status information can be sent as encoded messages within the control protocol. The central management computer 10 processes the encoded messages within the control protocol to retrieve the status information.
The status information is stored in one or more status logs 220, 221. According to an embodiment of the present invention, two status logs are used, a success log 220 and a failure log 221. Status information is added to the appropriate log throughout the data transfer process. Upon completion or termination of the data transfer process, a notification procedure 230 is implemented as defined by the distribution rule. In particular, information about the success or failure of the data transfer process is provided to a designated person. Different procedures can be used and information communicated in the notification process 230. For example, the success log 220 and/or failure log 221 could be emailed to a designated address. A telephone call could be placed to a designated number merely providing the success or failure of the entire process. The notification may be provided to multiple people, for example, to people at two different companies involved in the data transfer.
The invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of the equivalency of the claims are therefore intended to be embraced therein.
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|U.S. Classification||705/1.1, 709/238|
|International Classification||G06Q10/00, G06F15/173|
|Aug 30, 2002||AS||Assignment|
Owner name: SIGNIANT INC, MASSACHUSETTS
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:NASH, MIKE;NORTH, DAVE;GATES, SEAN;REEL/FRAME:013254/0593
Effective date: 20020813
|Aug 10, 2011||FPAY||Fee payment|
Year of fee payment: 4
|Aug 26, 2015||FPAY||Fee payment|
Year of fee payment: 8
|Sep 15, 2015||AS||Assignment|
Owner name: SILICON VALLEY BANK, MASSACHUSETTS
Free format text: SECURITY AGREEMENT;ASSIGNOR:SIGNIANT INC.;REEL/FRAME:036627/0837
Effective date: 20150910
|Sep 25, 2015||AS||Assignment|
Owner name: ESCALATE CAPITAL PARTNERS SBIC III, LP, TEXAS
Free format text: SECURITY INTEREST;ASSIGNOR:SIGNIANT INC.;REEL/FRAME:036654/0714
Effective date: 20150910